EP3093569B1 - Method and device for turning on air conditioner - Google Patents
Method and device for turning on air conditioner Download PDFInfo
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- EP3093569B1 EP3093569B1 EP16159837.0A EP16159837A EP3093569B1 EP 3093569 B1 EP3093569 B1 EP 3093569B1 EP 16159837 A EP16159837 A EP 16159837A EP 3093569 B1 EP3093569 B1 EP 3093569B1
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- sleep state
- air conditioner
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- module
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
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- F24F2120/20—Feedback from users
Definitions
- the present disclosure generally relates to the field of smart home, and more particularly, to a method for turning on an air conditioner and a device for turning on an air conditioner.
- an air conditioner has become an essential household appliance in daily life and improved people's living quality extremely.
- the air conditioner Since the larger power consumption, the air conditioner is usually turned off at night and turned on for heating before a user gets up during autumn and winter where is not provided with a heater inside house. In order to enable the room temperature to be heated to an appropriate temperature before the user wakes up, some air conditioners have a timing switching function, so that the user may set up a certain time point at which the air conditioner will be turned on. For example, if the user is expected to get up at 7 o'clock, the air conditioner may be set up to be turned on for heating at 6:40.
- US 2006/0142968 discloses a home control system which monitors the sleep and stress state of a user, and accordingly controls various systems in the home network, including the air conditioning.
- the present disclosure provides in embodiments a method for turning on an air conditioner.
- a method for turning on an air conditioner comprising:
- the method further comprises:
- Determining the predetermined time period t 1 during which the user is in the light sleep state comprises:
- the physiological parameter may be at least one of a heart rate parameter, a body temperature parameter and a body movement parameter, and determining a physiological parameter based on the sensor parameter may comprise:
- the method may further comprise:
- a device for turning on an air conditioner comprising:
- the time period determining module comprises:
- the device further comprises:
- the physiological parameter may be at least one of a heart rate parameter, a body temperature parameter and a body movement parameter, and the physiological parameter determining module may comprise:
- the device may further comprise:
- a device for turning on an air conditioner comprising:
- the technical solution provided in embodiments of the present disclosure may have the following advantageous effect.
- the change in the sleep state of a user corresponding to the wearable device is determined on a basis of the physiological parameter, which is determined based on the sensor parameter collected by the wearable device.
- the air conditioner is turned on for heating at a right time when the user wakes up, thereby ensuring that the room temperature has been elevated to an appropriate temperature when the user wakes up.
- Fig. 1 is a schematic diagram showing an environment in which a method for turning on an air conditioner according to some example embodiments of the present disclosure is implemented.
- Such an environment includes: a wearable device 110, an air conditioner 120 and a relay device 130.
- the wearable device 110 may be a wearable smart device like a smart watch, a smart bracelet, or the like.
- the wearable device includes some sensors, for example an infrared sensor, a piezoelectric sensor, a temperature sensor, a body movement sensor, and the like.
- the relay device 130 may be a smart device, for example, a smart phone, a smart router or the like.
- the wearable device 110, the air conditioner 120 and the relay device 130 are connected by wired or wireless network.
- a connection of short-distance wireless communication may be established directly between the wearable device 110 and the air conditioner 120 or between the wearable device 110 and a remoter of the air conditioner 120.
- a connection of short-distance wireless communication may be also established indirectly between the wearable device 110 and the air conditioner 120 or between the wearable device 110 and a remoter of the air conditioner 120via the relay device 130.
- Fig. 2 is a flow chart showing a method for turning on an air conditioner according to an example embodiment of the present disclosure. Such method for turning on the air conditioner is used in the wearable device 110, the air conditioner 120 or the relay device 130 as shown in Fig. 1 . As shown in Fig. 2 , the method for turning on the air conditioner may include the following steps.
- step 202 a sensor parameter collected by a sensor in a wearable device is acquired.
- a physiological parameter is determined based on the sensor parameter.
- step 206 a change in a sleep state of a user corresponding to the wearable device is determined based on the physiological parameter.
- step 208 it is detected whether the change in the sleep state is in conformity with a predetermined condition.
- step 210 the air conditioner is turned on for heating when the change in the sleep state is detected to be in conformity with the predetermined condition.
- the physiological parameter is at least one of a heart rate parameter, a body temperature parameter and a body movement parameter, and determining a physiological parameter based on the sensor parameter includes:
- the sleep state at least includes a deep sleep state and a light sleep state; and the predetermined condition includes a transition from the deep sleep state to the light sleep state.
- the method further includes determining a predetermined time period t 1 during which the user is in the light sleep state; and turning on the air conditioner for heating includes:
- determining a predetermined time period t 1 during which the user is in the light sleep state includes:
- the method further includes:
- the method for turning on the air conditioner shown in embodiments of the present disclosure may determine the change in the sleep state of a user corresponding to the wearable device on a basis of the physiological parameter, which is determined based on the sensor parameter collected by the wearable device.
- the air conditioner is turned on for heating at a right time when the user wakes up, thereby ensuring that the room temperature has been elevated to an appropriate temperature when the user wakes up.
- Fig. 3 is a flow chart showing a method for turning on an air conditioner according to another example embodiment of the present disclosure. Such method for turning on the air conditioner is used in the wearable device 110, the air conditioner 120 or the relay device 130 shown in Fig. 1 . As shown in Fig. 3 , the method for turning on the air conditioner may include the following steps.
- step 302 a sensor parameter collected by a sensor in a wearable device is acquired.
- the wearable device may be provided with various kinds of sensors, like an infrared sensor, a piezoelectric sensor, a temperature sensor, a body movement sensor and the like.
- At least one of the following physiological parameters may be determined based on the sensor parameter: a heart rate parameter, a body temperature parameter and a body movement parameter.
- the method for determining various physiological parameters may be shown as follows.
- the heart rate parameter is determined based on a parameter collected by an infrared sensor or a piezoelectric sensor in the wearable device.
- the infrared sensor in the wearable device may emit an infrared ray generated by an infrared light emitting diode to a blood vessel in body, and collect an infrared signal transmitted or reflected from blood passing through the blood vessel, so that a real-time heart rate in body may be obtained after preamplification, smoothing and related calculations on the infrared signal collected by the infrared sensor.
- the wearable device when the wearable device is provided with the piezoelectric sensor, it may also collect the change of the intracellular blood pressure by the piezoelectric sensor, so that the real-time heart rate in body may also be obtained by processing such change of the intracellular blood pressure.
- the body temperature parameter is determined based on a parameter collected by a temperature sensor in the wearable device.
- the wearable device When the wearable device is provided with the temperature sensor, it may collect a real-time temperature of body by the temperature sensor.
- the body movement parameter is determined based on a parameter collected by a body movement sensor in the wearable device.
- the wearable device When the wearable device is provided with the body movement sensor, it may collect a tiny movement by the body movement sensor, for example turning over, moving a limb, and the like.
- step 310 a change in a sleep state of a user corresponding to the wearable device is determined based on the physiological parameter.
- the user's sleep state may include a deep sleep state, a light sleep state and a waking state.
- the change in the user's sleep state may be determined by analyzing the changes of these physiological parameters. Specific algorithm for determining the user's sleep state by analyzing the physiological parameters may be set combining with actual conditions by a developer himself, which is not limited in the present disclosure of the present disclosure.
- step 312 it is detected whether the change in the sleep state is in conformity with a predetermined condition.
- the predetermined condition may be set as that the user's sleep state is changed into the light sleep state from the deep sleep state.
- the predetermined condition may be set as that the user's sleep state is changed into the waking state from the light sleep state, which is not limited in embodiments of the present disclosure.
- step 314 the air conditioner is turned on for heating when the change in the sleep state is detected to be in conformity with the predetermined condition.
- the air conditioner may be turned on for heating, so that the room temperature has been elevated to an appropriate temperature by the time the user gets up.
- the wearable device may be a smart bracelet
- the sensor parameter may be collected by the sensor in the smart bracelet, and then the physiological parameter is determined based on the sensor parameter, and an instruction for turning on the air conditioner for heating is sent to the air conditioner when it is determined that the user is about to wake up based on the physiology parameter.
- the above-mentioned steps may be also accomplished by the air conditioner or the relay device.
- the smart bracelet sends the sensor parameter collected by the sensor to the air conditioner, which determines the physiological parameter based on the sensor parameter, and turns on itself for heating when determining that the user is about to wake up based on the physiology parameter; or, the smart bracelet sends the sensor parameter collected by the sensor to a smart phone or a router, which determines the physiological parameter based on the sensor parameter, and sends an instruction to the air conditioner so as to turn on the air conditioner for heating when determining that the user is about to wake up based on the physiology parameter.
- the method for turning on the air conditioner shown in embodiments of the present disclosure may determine the change in the sleep state of a user corresponding to the wearable device on a basis of the physiological parameter, which is determined based on the sensor parameter collected by the wearable device.
- the air conditioner is turned on for heating at a right time when the user wakes up, thereby ensuring that the room temperature has been elevated to an appropriate temperature when the user wakes up.
- Fig. 4 is a flow chart showing a method for turning on an air conditioner according to a further example embodiment of the present disclosure. Such method for turning on the air conditioner is used in the wearable device 110, the air conditioner 120 or the relay device 130 as shown in Fig. 1 . As shown in Fig. 4 , the method for turning on the air conditioner may include the following steps.
- step 402 a sensor parameter collected by a sensor in a wearable device is acquired.
- the wearable device may be provided with various kinds of sensors, like an infrared sensor, a piezoelectric sensor, a temperature sensor, a body movement sensor and the like.
- a physiological parameter is determined based on the sensor parameter.
- the physiological parameter to be determined may include at least one of a heart rate parameter, a body temperature parameter and a body movement parameter.
- the method for determining various physiological parameters may be similar as steps 304 to 308 in the embodiment shown in Fig. 3 , which is not repeated herein.
- step 406 a change in a sleep state of a user corresponding to the wearable device is determined based on the physiological parameter.
- the user's sleep state may include a deep sleep state, a light sleep state and a waking state.
- the change in the user's sleep state may be determined by analyzing the changes of these physiological parameters.
- step 408 it is detected whether the change in the sleep state is in conformity with a predetermined condition, and step 410 is executed when it is in conformity with the predetermined condition.
- the predetermined condition may be set as that the user's sleep state is changed into the light sleep state from the deep sleep state.
- the predetermined condition may be set as that the user's sleep state is changed into the waking state from the light sleep state, which is not limited in embodiments of the present disclosure.
- step 410 it is determined whether a time point of detecting is within a predetermined time duration; and step 412 is executed if the time point of detecting is within the predetermined time duration, otherwise it is the end.
- the time point of detecting is a time point at which the change in the sleep state is detected to be in conformity with the predetermined condition.
- the user's sleep state changing into the light sleep state from the deep sleep state does not necessarily mean that the user is about to wake up and get up.
- the user suffers from insomnia in the midnight, thus in order to avoid the air conditioner from being turned on by mistake in this case, it may be further determined whether a time point of detecting, at which the change in the sleep state is detected to be in conformity with the predetermined condition, is within a predetermined time duration. For example, it may be detected whether the time point of detecting is within 7 to 9 o'clock; if the time point of detecting is within 7 to 9 o'clock, then the subsequent step is performed, otherwise the subsequent step is not necessary.
- step 412 historical sleep state information including every time period during which the user is in the light sleep state is acquired; and an average time period of every time period during which the user is in the light sleep state is determined as a predetermined time period t 1 during which the user is in the light sleep state.
- a time period between the light sleep state and the waking state is not identical for each user, in the case that a longer time period is required for a user to be into the waking state from the light state, then it may result in electric power consumption to turn on the air conditioner in advance.
- it may acquire historical sleep state information including every time period during which the user is in the deep sleep state, the light sleep state and the waking state respectively; and determine an average time period of every time period during which the user is in the light sleep state as t 1 .
- the historical sleep state information may be automatically recorded by the wearable device or other devices such as a smart phone, so as to be checked by the user or called by other third-party applications.
- step 414 the air conditioner is turned on for heating immediately when the change in the sleep state is detected to be in conformity with the predetermined condition in the case of t 1 ⁇ t 2 ; and t 2 representing a predetermined time period during which a room temperature is heated to a predetermined temperature by the air conditioner.
- the air conditioner needs to be turned on for heating immediately.
- the predetermined time period during which the room temperature is heated to the predetermined temperature may be determined by calculating in accordance with the air conditioner's power and heating efficiency and a temperature difference between the current room temperature and the predetermined temperature.
- step 416 the air conditioner is turned on for heating after a time period (t 1 - t 2 ) from the change in the sleep state being detected to be in conformity with the predetermined condition in the case of t 1 >t 2 .
- the air conditioner needs to be turned on for heating after a time period (t 1 - t 2 ), other than immediately, so that the room temperature can be heated to the appropriate temperature at the right time when the user wakes up, thereby avoiding unnecessary electric power consumption.
- the wearable device may be a smart bracelet
- the sensor parameter may be collected by the sensor in the smart bracelet, and then the physiological parameter is determined based on the sensor parameter, and an instruction for turning on the air conditioner for heating is sent to the air conditioner when it is determined that the user is about to wake up based on the physiology parameter.
- the above-mentioned steps may be also accomplished by the air conditioner or the relay device.
- the smart bracelet sends the sensor parameter collected by the sensor to the air conditioner, which determines the physiological parameter based on the sensor parameter, and turns on itself for heating when determining that the user is about to wake up based on the physiology parameter; or, the smart bracelet sends the sensor parameter collected by the sensor to a smart phone or a router, which determines the physiological parameter based on the sensor parameter, and sends an instruction to the air conditioner so as to turn on the air conditioner for heating when determining that the user is about to wake up based on the physiology parameter.
- the method for turning on the air conditioner shown in embodiments of the present disclosure may determine the change in the sleep state of a user corresponding to the wearable device on a basis of the physiological parameter, which is determined based on the sensor parameter collected by the wearable device.
- the air conditioner is turned on for heating at a right time when the user wakes up, thereby ensuring that the room temperature has been elevated to an appropriate temperature when the user wakes up.
- the method for turning on the air conditioner shown in embodiments of the present disclosure may determine the predetermined time period during which the user is in the light sleep state based on the user's historical sleep state information and determine the specific time of turning on the air conditioner based on the relationship between the predetermined time period during which the user is in the light sleep state and the predetermined time period during which the room temperature is heated to the predetermined temperature, before the air conditioner is turned on for heating, thereby avoiding unnecessary electric power consumption.
- the method for turning on the air conditioner shown in embodiments of the present disclosure will perform subsequent step of turning on the air conditioner for heating if the time point of detecting, at which the change in the sleep state is detected to be in conformity with the predetermined condition, is within the predetermined time duration, thereby avoiding the air conditioner from being turned on by mistake.
- Fig. 5 is a block diagram showing a device for turning on an air conditioner according to an example embodiment of the present disclosure.
- Such device for turning on the air conditioner may be used in the wearable device 110, the air conditioner 120 or the relay device 130 as shown in Fig. 1 , so as to execute all or part steps of the method shown in any one of Figs. 2 to 4 .
- such device for turning on the air conditioner includes, but is not limited to, a sensor parameter acquiring module 501, a physiological parameter determining module 502, a state change determining module 503, a detecting module 504 and a controlling module 505.
- the sensor parameter acquiring module 501 is configured to acquire a sensor parameter collected by a sensor in a wearable device.
- the physiological parameter determining module 502 is configured to determine a physiological parameter based on the sensor parameter.
- the state change determining module 503 is configured to determine a change in a sleep state of a user corresponding to the wearable device based on the physiological parameter.
- the detecting module 504 is configured to detect whether the change in the sleep state is in conformity with a predetermined condition.
- the controlling module 505 is configured to turn on the air conditioner for heating when the detecting module 504 detects that the change in the sleep state is in conformity with the predetermined condition.
- the device for turning on the air conditioner shown in embodiments of the present disclosure may determine the change in the sleep state of a user corresponding to the wearable device on a basis of the physiological parameter, which is determined based on the sensor parameter collected by the wearable device.
- the air conditioner is turned on for heating at a right time when the user wakes up, thereby ensuring that the room temperature has been elevated to an appropriate temperature when the user wakes up.
- Fig. 6 is a block diagram showing a device for turning on an air conditioner according to another example embodiment of the present disclosure.
- Such device for turning on the air conditioner may be used in the wearable device 110, the air conditioner 120 or the relay device 130 as shown in Fig. 1 , so as to execute all or part steps of the method shown in any one of Figs. 2 to 4 .
- such device for turning on the air conditioner includes, but is not limited to, a sensor parameter acquiring module 501, a physiological parameter determining module 502, a state change determining module 503, a detecting module 504 and a controlling module 505.
- the sensor parameter acquiring module 501 is configured to acquire a sensor parameter collected by a sensor in a wearable device.
- the physiological parameter determining module 502 is configured to determine a physiological parameter based on the sensor parameter.
- the state change determining module 503 is configured to determine a change in a sleep state of a user corresponding to the wearable device based on the physiological parameter.
- the detecting module 504 is configured to detect whether the change in the sleep state is in conformity with a predetermined condition.
- the controlling module 505 is configured to turn on the air conditioner for heating when the detecting module 504 detects that the change in the sleep state is in conformity with the predetermined condition.
- the physiological parameter is at least one of a heart rate parameter, a body temperature parameter and a body movement parameter
- the physiological parameter determining module 502 includes: a first determining sub-module 502a, a second determining sub-module 502b, and a third determining sub-module 502c.
- the first determining sub-module 502a is configured to determine the heart rate parameter based on a parameter collected by an infrared sensor or a piezoelectric sensor in the wearable device.
- the second determining sub-module 502b is configured to determine the body temperature parameter based on a parameter collected by a temperature sensor in the wearable device.
- the third determining sub-module 502c is configured to determine the body movement parameter based on a parameter collected by a body movement sensor in the wearable device.
- the sleep state at least includes a deep sleep state and a light sleep state; and the predetermined condition includes a transition from the deep sleep state to the light sleep state.
- the device further includes a time period determining module 506, configured to determine a predetermined time period t 1 during which the user is in the light sleep state prior to turning on the air conditioner for heating by the controlling module 505.
- a time period determining module 506 configured to determine a predetermined time period t 1 during which the user is in the light sleep state prior to turning on the air conditioner for heating by the controlling module 505.
- the controlling module 505 includes a first controlling sub-module 505a and a second controlling sub-module 505b.
- the first controlling sub-module 505a is configured to turn on the air conditioner for heating immediately when the change in the sleep state is detected to be in conformity with the predetermined condition in the case of t 1 ⁇ t 2 .
- the second controlling sub-module 505b is configured to turn on the air conditioner for heating after a time period (t 1 - t 2 ) from the change in the sleep state being detected to be in conformity with the predetermined condition in the case of t 1 >t 2 .
- t 2 represents a predetermined time period during which a room temperature is heated to a predetermined temperature by the air conditioner.
- the time period determining module 506 includes a state information acquiring sub-module 506a and a time period determining sub-module 506b.
- the state information acquiring sub-module 506a is configured to acquire historical sleep state information including every time period during which the user is in the light sleep state.
- the time period determining sub-module 506b is configured to determine an average time period of every time period during which the user is in the light sleep state as t 1 .
- the device further includes a determining module 507, configured to determine whether a time point of detecting, at which the change in the sleep state is detected to be in conformity with the predetermined condition, is within a predetermined time duration before the controlling module 505 turns on the air conditioner for heating, and the controlling module 505 is configured to turn on the air conditioner for heating when the time point of detecting is within the predetermined time duration.
- a determining module 507 configured to determine whether a time point of detecting, at which the change in the sleep state is detected to be in conformity with the predetermined condition, is within a predetermined time duration before the controlling module 505 turns on the air conditioner for heating, and the controlling module 505 is configured to turn on the air conditioner for heating when the time point of detecting is within the predetermined time duration.
- the device for turning on the air conditioner shown in embodiments of the present disclosure may determine the change in the sleep state of a user corresponding to the wearable device on a basis of the physiological parameter, which is determined based on the sensor parameter collected by the wearable device.
- the air conditioner is turned on for heating at a right time when the user wakes up, thereby ensuring that the room temperature has been elevated to an appropriate temperature when the user wakes up.
- the device for turning on the air conditioner shown in embodiments of the present disclosure may determine the predetermined time period during which the user is in the light sleep state based on the user's historical sleep state information and determine the specific time of turning on the air conditioner based on the relationship between the predetermined time period during which the user is in the light sleep state and the predetermined time period during which the room temperature is heated to the predetermined temperature, before the air conditioner is turned on for heating, thereby avoiding unnecessary electric power consumption.
- the device for turning on the air conditioner shown in embodiments of the present disclosure will perform subsequent step of turning on the air conditioner for heating if the time point of detecting, at which the change in the sleep state is detected to be in conformity with the predetermined condition, is within the predetermined time duration, thereby avoiding the air conditioner from being turned on by mistake.
- Fig. 7 is a block diagram showing a device 700 according to an example embodiment of the present disclosure.
- the device 700 may be a mobile phone, a computer, a digital broadcasting terminal, a message sending and receiving device, a router device, a game console, a flat panel device, a medical device, a fitness device, a personal digital assistant, a smart control device, a smart household appliance device, a smart wearable device, or the like.
- the device 700 may include one or more of the following components: a processing component 702, a memory 704, a power component 706, a multimedia component 708, an audio component 710, an input/output (I/O) interface 712, a sensor component 714, and a communication component 716.
- a processing component 702 a memory 704
- a power component 706 a multimedia component 708, an audio component 710, an input/output (I/O) interface 712, a sensor component 714, and a communication component 716.
- I/O input/output
- the processing component 702 typically controls overall operations of the device 700, such as the operations associated with display, telephone calls, data communications, camera operations, and recording operations.
- the processing component 702 may include one or more processors 718 to execute instructions to perform all or part of the steps in the above described methods.
- the processing component 702 may include one or more modules which facilitate the interaction between the processing component 702 and other components.
- the processing component 702 may include a multimedia module to facilitate the interaction between the multimedia component 708 and the processing component 702.
- the memory 704 is configured to store various types of data to support the operation of the device 700. Examples of such data include instructions for any applications or methods operated on the device 700, contact data, phonebook data, messages, pictures, video, etc.
- the memory 704 may be implemented using any type of volatile or non-volatile memory devices, or a combination thereof, such as a static random access memory (SRAM), an electrically erasable programmable read-only memory (EEPROM), an erasable programmable read-only memory (EPROM), a programmable read-only memory (PROM), a read-only memory (ROM), a magnetic memory, a flash memory, a magnetic or optical disk.
- the memory 704 may include one or more modules which are configured to be executed by one or more processors 718, so as to perform all or part of the steps in the above described method shown in any one of Figs. 2-4 .
- the power component 706 provides power to various components of the device 700.
- the power component 706 may include a power management system, one or more power sources, and any other components associated with the generation, management, and distribution of power in the device 700.
- the multimedia component 708 includes a screen providing an output interface between the device 700 and the user.
- the screen may include a liquid crystal display (LCD) and a touch panel (TP). If the screen includes the touch panel, the screen may be implemented as a touch screen to receive input signals from the user.
- the touch panel includes one or more touch sensors to sense touches, swipes, and gestures on the touch panel. The touch sensors may not only sense a boundary of a touch or swipe action, but also sense a period of time and a pressure associated with the touch or swipe action.
- the multimedia component 708 includes a front camera and/or a rear camera. The front camera and the rear camera may receive an external multimedia datum while the device 700 is in an operation mode, such as a photographing mode or a video mode. Each of the front camera and the rear camera may be a fixed optical lens system or have focus and optical zoom capability.
- the audio component 710 is configured to output and/or input audio signals.
- the audio component 710 includes a microphone (MIC) configured to receive an external audio signal when the device 700 is in an operation mode, such as a call mode, a recording mode, and a voice recognition mode.
- the received audio signal may be further stored in the memory 704 or transmitted via the communication component 716.
- the audio component 710 further includes a speaker to output audio signals.
- the I/O interface 712 provides an interface between the processing component 702 and peripheral interface modules, such as a keyboard, a click wheel, buttons, and the like.
- the buttons may include, but are not limited to, a home button, a volume button, a starting button, and a locking button.
- the sensor component 714 includes one or more sensors to provide status assessments of various aspects of the device 700. For instance, the sensor component 714 may detect an open/closed status of the device 700, relative positioning of components, e.g., the display and the keypad, of the device 700, a change in position of the device 700 or a component of the device 700, a presence or absence of user contact with the device 700, an orientation or an acceleration/deceleration of the device 700, and a change in temperature of the device 700.
- the sensor component 714 may include a proximity sensor configured to detect the presence of nearby objects without any physical contact.
- the sensor component 714 may also include a light sensor, such as a CMOS or CCD image sensor, for use in imaging applications.
- the sensor component 714 may also include an accelerometer sensor, a gyroscope sensor, a magnetic sensor, a pressure sensor, or a temperature sensor.
- the communication component 716 is configured to facilitate communication, wired or wirelessly, between the device 700 and other devices.
- the device 700 can access a wireless network based on a communication standard, such as WiFi, 2G, or 3G, or a combination thereof.
- the communication component 716 receives a broadcast signal or broadcast associated information from an external broadcast management system via a broadcast channel.
- the communication component 716 further includes a near field communication (NFC) module to facilitate short-range communications.
- the NFC module may be implemented based on a radio frequency identification (RFID) technology, an infrared data association (IrDA) technology, an ultra-wideband (UWB) technology, a Bluetooth (BT) technology, and other technologies.
- RFID radio frequency identification
- IrDA infrared data association
- UWB ultra-wideband
- BT Bluetooth
- the device 700 may be implemented with one or more application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), controllers, micro-controllers, microprocessors, or other electronic components, for performing the above described methods.
- ASICs application specific integrated circuits
- DSPs digital signal processors
- DSPDs digital signal processing devices
- PLDs programmable logic devices
- FPGAs field programmable gate arrays
- controllers micro-controllers, microprocessors, or other electronic components, for performing the above described methods.
- non-transitory computer-readable storage medium including instructions, such as included in the memory 704, executable by the processor 718 in the device 700, for performing the above-described methods.
- the non-transitory computer-readable storage medium may be a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disc, an optical data storage device, and the like.
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- Biophysics (AREA)
- Biomedical Technology (AREA)
- Heart & Thoracic Surgery (AREA)
- Medical Informatics (AREA)
- Molecular Biology (AREA)
- Surgery (AREA)
- Animal Behavior & Ethology (AREA)
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2015
- 2015-05-11 CN CN201510236279.8A patent/CN104896656B/zh active Active
- 2015-09-24 MX MX2016002414A patent/MX354850B/es active IP Right Grant
- 2015-09-24 WO PCT/CN2015/090600 patent/WO2016179943A1/zh active Application Filing
- 2015-09-24 KR KR1020167007102A patent/KR101846752B1/ko active IP Right Grant
- 2015-09-24 JP JP2016518455A patent/JP6247384B2/ja active Active
- 2015-09-24 RU RU2016111930A patent/RU2643129C2/ru active
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RU2643129C2 (ru) | 2018-01-30 |
JP6247384B2 (ja) | 2017-12-13 |
MX354850B (es) | 2018-03-22 |
CN104896656A (zh) | 2015-09-09 |
KR20160144024A (ko) | 2016-12-15 |
JP2017517708A (ja) | 2017-06-29 |
RU2016111930A (ru) | 2017-10-03 |
BR112016003711A2 (zh) | 2017-08-01 |
KR101846752B1 (ko) | 2018-04-06 |
MX2016002414A (es) | 2017-03-20 |
US10119715B2 (en) | 2018-11-06 |
US20160334124A1 (en) | 2016-11-17 |
EP3093569A1 (en) | 2016-11-16 |
CN104896656B (zh) | 2018-04-06 |
BR112016003711B1 (pt) | 2022-09-20 |
WO2016179943A1 (zh) | 2016-11-17 |
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